Spectrally Efficient Digital Logic (SEDL) ADC and DAC Continuation of Case 19888L

Spectrally-efficient digital logic (SEDL) techniques implement spectrally-efficient pulses (e.g., Gaussian-shaped pulses) in lieu of conventional square waveforms to improve electromagnetic, radio frequency, and other unwanted emissions. The SEDL techniques can be used for analog-to-digital converters (ADC) and digital-to-analog converters (DAC). An ADC circuit comprises a plurality of comparators configured to receive an analog input signal and compare the analog input signal to a predetermined reference signal, an encoder, and a spectrally-efficient circuit. A DAC circuit includes an integrator circuit, a clocked comparator circuit, a pulse generator, and a combiner circuit. The clocked comparator circuit receives the logic state of each SEDL pulse. The pulse generator receives the logic state and generates a scaled SEDL pulse for each input SEDL pulse. A combiner circuit combines the outputs from the pulse generator and determines analog value corresponding to the input values.

Researchers

Departments: Lincoln Laboratory
Technology Areas: Computer Science: Networking & Signals
Impact Areas: Connected World

  • spectrally efficient digital logic (sedl) analog to digital converter (adc)
    United States of America | Granted | 10,944,415
  • spectrally efficient digital logic (sedl) digital to analog converter (dac)
    United States of America | Granted | 11,201,627

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